Cell Structure and Function
Cells Smallest living unit Most are microscopic
Discovery of Cells Robert Hooke (mid-1600s) Observed sliver of cork Saw “row of empty boxes” Coined the term cell
Cell theory (1839)Theodor Schwann & Matthias Schleiden “ all living things are made of cells” (50 yrs. Later) Louis Pasteur “all cells come from cells”
Principles of Cell Theory All living things are made of cells Smallest living unit of structure and function of all organisms is the cell Cells carry out the functions needed to support life. All cells arise from preexisting cells (this principle discarded the idea of spontaneous generation)
Why study cells? Cells Tissues Organs Bodies bodies are made up of cells cells do all the work of life!
The Work of Life What jobs do cells have to do for an organism to live… “breathe” gas exchange: O2 in vs. CO2 out eat take in & digest food make energy ATP build molecules proteins, carbohydrates, fats, nucleic acids remove wastes control internal conditions homeostasis respond to external environment build more cells growth, repair, reproduction & development ATP
Cell Size
Characteristics of All Cells A surrounding membrane Cytoplasm – cell contents in thick fluid Organelles – structures for cell function Control center with DNA
Cell Types Prokaryotic Eukaryotic
Two Types of Cells Prokaryotes First cells to evolve No nucleus Hereditary info is contained within cytoplasm Ex. Bacteria Eukaryotes Evolved from Prokaryotes Have a nucleus Hereditary Info is contained within the nucleus Ex. Plants, Animals, Fungi
Prokaryotic Cells First cell type on earth Cell type of Bacteria and Archaea
Prokaryotic Cells No membrane bound nucleus Nucleoid = region of DNA concentration Organelles not bound by membranes
Bacterium Shapes
Eukaryotic Cells Nucleus bound by membrane Include fungi, protists, plant, and animal cells Possess many organelles Protozoan
Representative Animal Cell
Representative Plant Cell
Organelles Cellular machinery
Cell Walls Found in plants, fungi, & many protists Surrounds plasma membrane Made of cellulose Is rigid Provides support and protection for the cell
Cell Wall Differences Plants – mostly cellulose Fungi – contain chitin
Cell membrane Surrounds all cells In a plant cell, it lies beneath the cell wall – In animal cells, it is the outer boundary (made of cholesterol) Lipid bilayer with embedded proteins • Provides cell with – Protection Control of movement of materials in/out of cell Support
Cytoplasm Found in both plant and animal cells Viscous fluid containing organelles components of cytoplasm Interconnected filaments & fibers Fluid = cytosol Found in both plant and animal cells Located beneath cell membrane Supports and protects cell organelles
Organelles Functional components within cytoplasm
Nucleus Function Structure control center of cell protects DNA instructions for building proteins Structure nuclear membrane nucleolus ribosome factory chromosomes DNA
DNA Hereditary material Chromosomes
Nucleolus Most cells have 2 or more Directs synthesis of RNA Forms ribosomes
Endoplasmic Reticulum Helps move substances within cells Network of interconnected tubes Two types Rough endoplasmic reticulum Smooth endoplasmic reticulum
Rough Endoplasmic Reticulum Ribosomes attached to surface Manufacture proteins Not all ribosomes attached to rough ER
Smooth Endoplasmic Reticulum No attached ribosomes Has enzymes that help build molecules Carbohydrates Lipids
Golgi Apparatus Function Structure finishes, sorts, labels & ships proteins like UPS headquarters shipping & receiving department ships proteins in vesicles “UPS trucks” Structure membrane sacs vesicles carrying proteins transport vesicles
Lysosomes Found only in animal cells Contain digestive enzymes Functions Aid in cell renewal Break down old cell parts Digests invaders
Vacuoles Membrane bound storage sacs More common in plants than animals Contents Water Food wastes
Mitochondria Have their own DNA Bound by double membrane Has inner foldings (Cristae) that increase the internal surface area
Mitochondria Break down fuel molecules (cellular respiration) Glucose Fatty acids Release energy ATP
Mitochondria ATP Function in both animal & plant cells make ATP energy from cellular respiration sugar + O2 ATP fuels the work of life ATP in both animal & plant cells
Plants make energy two ways! ATP Mitochondria make energy from sugar + O2 cellular respiration sugar + O2 ATP Chloroplasts make energy + sugar from sunlight photosynthesis sunlight + CO2 ATP & sugar ATP = active energy sugar = stored energy build leaves & roots & fruit out of the sugars sugar ATP
Chloroplasts Solar energy capturing organelle
Photosynthesis Takes place in the chloroplast Makes cellular food – glucose
Mitochondria are in both cells!! animal cells plant cells chloroplast mitochondria
Cells need workers = proteins! Making proteins to run daily life & growth, the cell must… read genes (DNA) build proteins structural proteins (muscle fibers, hair, skin, claws) enzymes (speed up chemical reactions) signals (hormones) & receptors organelles that do this work… nucleus ribosomes endoplasmic reticulum (ER) Golgi apparatus
endoplasmic reticulum nucleus protein on its way! DNA TO: RNA vesicle TO: TO: vesicle ribosomes TO: protein finished protein Golgi apparatus Making Proteins
Cells need to make more cells! Making more cells to replace, repair & grow, the cell must… copy their DNA make extra organelles divide the new DNA & new organelles between 2 new “daughter” cells organelles that do this work… nucleus centrioles
Centrioles Function Structure help coordinate cell division only in animal cells Structure one pair in each cell
Cell Summary Cells have 3 main jobs make energy make proteins need food + O2 cellular respiration & photosynthesis need to remove wastes make proteins need instructions from DNA need to chain together amino acids & “finish” & “ship” the protein make more cells need to copy DNA & divide it up to daughter cells Our organelles do all those jobs!
Plasma Membrane Contains cell contents Double layer of phospholipids & proteins
Phospholipids Polar Interacts with water Hydrophylic head Hydrophobic tail Interacts with water
Movement Across the Plasma Membrane A few molecules move freely Water, Carbon dioxide, Ammonia, Oxygen Carrier proteins transport some molecules Proteins embedded in lipid bilayer Fluid mosaic model – describes fluid nature of a lipid bilayer with proteins
Molecule Movement & Cells Passive Transport Active Transport Endocytosis (phagocytosis & pinocytosis) Exocytosis
Passive Transport No energy required Move due to gradient differences in concentration, pressure, charge Move to equalize gradient High moves toward low
Types of Passive Transport 1. Diffusion 2. Osmosis 3. Facilitated diffusion
Diffusion Molecules move to equalize concentration
Osmosis Special form of diffusion Fluid flows from lower solute concentration Often involves movement of water Into cell Out of cell
Solution Differences & Cells solvent + solute = solution Hypotonic Solutes in cell more than outside Outside solvent will flow into cell Isotonic Solutes equal inside & out of cell Hypertonic Solutes greater outside cell Fluid will flow out of cell
Facilitated Diffusion Differentially permeable membrane Channels (are specific) help molecule or ions enter or leave the cell Channels usually are transport proteins (aquaporins facilitate the movement of water) No energy is used
Process of Facilitated Transport Protein binds with molecule Shape of protein changes Molecule moves across membrane
Active Transport Molecular movement Requires energy (against gradient) Example is sodium-potassium pump
Endocytosis Movement of large material Movement is into cells Particles Organisms Large molecules Movement is into cells Types of endocytosis bulk-phase (nonspecific) receptor-mediated (specific)
Process of Endocytosis Plasma membrane surrounds material Edges of membrane meet Membranes fuse to form vesicle
Forms of Endocytosis Phagocytosis – cell eating Pinocytosis – cell drinking
Exocytosis Reverse of endocytosis Cell discharges material
Exocytosis Vesicle moves to cell surface Membrane of vesicle fuses Materials expelled
Membrane Proteins 1. Channels or transporters 2. Receptors Move molecules in one direction 2. Receptors Recognize certain chemicals
Membrane Proteins 3. Glycoproteins 4. Enzymes Identify cell type Catalyze production of substances
Review of Eukaryotic Cells
Review of Eukaryotic Cells